Highly Efficient Elliptic Curve Crypto-Processor with Parallel GF(2m) Field Multipliers

Turki F. Al-Somani; M. K. Ibrahim; Adnan Gutub

doi:10.3844/jcssp.2006.395.400

Research Article Open Access

Highly Efficient Elliptic Curve Crypto-Processor with Parallel GF(2^m) Field Multipliers

Turki F. Al-Somani, M. K. Ibrahim and Adnan Gutub

Abstract

This study presents a high performance GF(2^m) Elliptic Curve Crypto-processor architecture. The proposed architecture exploits parallelism at the projective coordinate level to perform parallel field multiplications. In the proposed architecture, normal basis representation is used. Comparisons between the Projective, Jacobian and Mixed coordinate systems using sequential and parallel designs are presented. Results show that parallel designs using normal basis gives better area-time complexity (AT²) than sequential designs by 33-252% which leads to a wide range of design tradeoffs. The results also show that mixed coordinate system is the best in both sequential and parallel designs and gives the least number of multiplications levels when using 3 multipliers and the best AT² when using only 2 multipliers.

Journal of Computer Science

Volume 2 No. 5, 2006, 395-400

DOI: https://doi.org/10.3844/jcssp.2006.395.400

Submitted On: 9 January 2006 Published On: 31 May 2006

How to Cite: Al-Somani, T. F., Ibrahim, M. K. & Gutub, A. (2006). Highly Efficient Elliptic Curve Crypto-Processor with Parallel GF(2^m) Field Multipliers. Journal of Computer Science, 2(5), 395-400. https://doi.org/10.3844/jcssp.2006.395.400

Copyright: © 2006 Turki F. Al-Somani, M. K. Ibrahim and Adnan Gutub. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

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Keywords

Elliptic curves cryptosystems
projective coordinate
parallel designs
normal basis